Methods and systems for object identification and for authentication

1. A method for using imperfections induced by fabrication variations for identification/authentication of an object, the method comprising the steps of: connectively positioning a micromechanical resonator structure with respect to the object, the micromechanical resonator structure having a substantially unique characteristic signal; the substantially unique characteristic signal being produced by induced motion of the micromechanical resonator structure; uniqueness of the substantially unique characteristic signal resulting from the imperfections induced by the fabrication variations; exciting motion of the micromechanical resonator structure to induce an excitation response signal; said excitation response signal comprising a vibration spectrum, a spectrum of the induced motion, phase as a function of frequency for the induced motion and phase of response with respect to a detection subsystem; detecting features of the excitation response signal; and comparing the features of the excitation response signal to a stored substantially unique characteristic signal; the stored substantially unique characteristic signal being obtained by exciting motion of the micromechanical resonator structure to induce the substantially unique characteristic signal, detecting features of the substantially unique characteristic signal and storing the detected features as the stored substantially unique characteristic signal; the stored substantially unique characteristic signal uniquely identifying the object within a class of objects; the stored substantially unique characteristic signal being such that regeneration or reassignment of the stored substantially unique characteristic signal to another object within the class is highly unlikely or effectively impossible; whereby the object is identified/authenticated.

2. The method of claim 1 further comprising the step of communicating an indication of a result of the comparison.

3. The method of claim 1 wherein the step of exciting motion of the micromechanical resonator structure comprises inducing thermal stresses in the micromechanical resonator structure.

4. The method of claim 1 wherein the step of exciting motion of the micromechanical resonator structure comprises electromagnetically exciting the micromechanical resonator structure.

5. The method of claim 1 wherein the step of exciting motion of the micromechanical resonator structure comprises inducing stresses in the micromechanical resonator structure.

6. The method of claim 1 wherein the step of exciting motion of the micromechanical resonator structure comprises coupling motion from another structure.

7. The method of claim 1 wherein the step of exciting motion of the micromechanical resonator structure comprises acoustically exciting the micromechanical resonator structure.

8. The method of claim 1 wherein the step of detecting the features of the excitation response signal comprises optically detecting the features of the excitation response signal.

9. The method of claim 1 wherein the step of detecting the features of the excitation response signal comprises electromagnetically detecting the features of the excitation response signal.

10. The method of claim 1 wherein the step of detecting the features of the excitation response signal comprises detecting a vibration spectrum of the excitation response signal.

11. A method for using imperfections induced by fabrication variations for identification/authentication of an object, the method comprising the steps of: positioning a micromechanical resonator on a substrate, the micromechanical resonator having a substantially unique excitation response signal; uniqueness of the substantially unique excitation response signal resulting from the imperfections induced by the fabrication variations; said substantially unique excitation response signal uniquely identifying the object within a class of objects; said substantially unique excitation response signal being such that regeneration or reassignment of said substantially unique excitation response signal to another object within the class is highly unlikely or effectively impossible; said substantially unique excitation response signal produced by induced motion of the micromechanical resonator; said substantially unique excitation response signal comprising features a vibration spectrum, a spectrum of the induced motion, phase as a function of frequency for the induced motion and phase of response with respect to a detection subsystem; exciting the micromechanical resonator to induce said substantially unique excitation response signal; detecting features of said substantially unique excitation response signal; and storing the detected features as a stored substantially unique excitation response signal, wherein said substantially unique excitation response signal is compared with said stored substantially unique excitation response signal for identification/authentication of the object.

12. The method of claim 11 , further comprising affixing the substrate to the object.

13. A method for using imperfections induced by fabrication variations for identification of an object, the method comprising the steps of: exciting motion of a micromechanical resonator structure, the micromechanical resonator structure having a substantially unique characteristic signal, the micromechanical resonator structure connectively positioned with respect to the object; said substantially unique characteristic signal being produced by excited motion of the micromechanical resonator structure; said excited motion of the micromechanical resonator structure inducing the substantially unique characteristic signal which is thereafter stored as a substantially unique previously determined characteristic signal; the substantially unique characteristic signal comprising a vibration spectrum, a spectrum of the excited motion, phase as a function of frequency for the excited motion and phase of response with respect to a detection subsystem; uniqueness of the substantially unique characteristic signal resulting from the imperfections induced by the fabrication variations; said substantially unique characteristic signal uniquely identifying the object within a class of objects; said substantially unique characteristic signal being such that regeneration or reassignment of said substantially unique characteristic signal to another object within the class is highly unlikely or effectively impossible; detecting a characteristic signal resulting from the excited motion of the micromechanical resonator structure; comparing the detected characteristic signal to the substantially unique previously determined characteristic signal; and identifying the object in response to the comparison.

14. The method of claim 13 , further comprising, communicating a signal comprising the identification of the object.

15. A method for using imperfections induced by fabrication variations for identification of an object, the method comprising the steps of: connectively positioning a micromechanical resonator structure with respect to the object, the micromechanical resonator structure having a substantially unique previously determined characteristic signal; uniqueness of the substantially unique previously determined characteristic signal resulting from the imperfections induced by the fabrication variations; the substantially unique previously determined characteristic signal being produced by exciting motion of the micromechanical resonator structure to induce a specific excitation response signal, said specific excitation response signal produced by excited motion of the micromechanical resonator structure; said specific excitation response signal comprising a vibration spectrum, a spectrum of the induced motion, phase as a function of frequency for the induced motion and phase of response with respect to a detection subsystem; detecting features of the specific excitation response signal and storing the detected features as the substantially unique previously determined characteristic signal; said substantially unique characteristic signal uniquely identifying the object within a class of objects; said substantially unique previously determined characteristic signal being such that regeneration or reassignment of the substantially unique characteristic signal to another object within the class is highly unlikely or effectively impossible; uniqueness of the substantially unique characteristic signal resulting from the imperfections induced by the fabrication variations; exciting motion of the micromechanical resonator structure; detecting a characteristic signal resulting from the excited motion of the micromechanical resonator structure; comparing the detected characteristic signal to the substantially unique previously determined characteristic signal; and communicating an indication of the result of the comparison.